JPH11511264A - Exchangeable light receiving sheet and method of using the same - Google Patents

Abstract

(57) [Summary] The light receiving sheet in the image device can be repeatedly transported along the transport path, and can capture and transfer an image. Further, since the light receiving sheet can be repeatedly transported, many images are captured and transferred. The transport path of the light receiving sheet may be a transport loop, and the loop length may be longer than the length of the light receiving sheet. Excess ink and toner can be removed from the light receiving sheet by guiding the excess into the container formed between the first end and the second end of the light receiving sheet. Can be removed.

Description

DETAILED DESCRIPTION OF THE INVENTION                  Exchangeable light receiving sheet and method of using the same Technical field   The present invention relates to an apparatus and a method for electrophotographic printing. In particular, the present invention Apparatus and method for electrophotographic printing using an easy light receiving sheet. Background art   Electrophotographic devices include a latent image forming system that applies a uniform potential to the photoreceptor material. Has several systems. The latent image forming system then prints the image on the photoreceptive material. Illuminated in a uniform pattern, the latent image corresponding to the image in electrophotographic equipment and other image sources. Generate an image. Electrophotographic equipment images can be from original literature or reproductions, or What you can get from desktop publishing computer software it can.   The toner deposition system in an electrophotographic device uses a pattern similar to an image-like pattern Attach conductive solid or liquid toner collected on photoreceptor material to photoreceptor material Things. The transfer system transfers the ink image directly from the photoreceptive material to paper or paper. Before transferring to or onto the final substrate such as a sheet made of To transfer to an intermediate substrate.   The first transport mechanism transports the photoreceptive material through the above system in an electrophotographic apparatus. Transport. Further, the second transport mechanism moves the input sheet in and out of the toner transfer mechanism. You.   Usually, the photoreceptor material depends on the type of electrophotographic device, Is a material coated on the belt. If you use an electrophotographic device many times, Fees need to be exchanged. When light-receiving material is coated on the drum, light-receiving Changing material requires replacing the entire drum, which is costly and Difficult to do.   If the light receiving material is coated on the belt, the replacement costs are relatively low. Only The belt drive mechanism removes used belts and replaces them with new belts. Need to be broken down, which is difficult and time consuming. However, the belt drive mechanism If is made using cantilever rollers, disassembly is easy. But, A belt drive mechanism with a cantilever becomes complicated, and the belt can be transported with sufficient stability. Providing a path requires considerable support in the electrophotographic apparatus.   In addition, there is always a seam in the belt. The seam melts both ends of the web together with heat. It is often made by melting. This, of course, means that the belt material melts with heat. Material. In addition, the seam allows the light-receiving material to follow the seam If the image overlaps the seam, the image quality will be adversely affected. Sometimes it goes.   U.S. Pat. No. 4,088,403 (Kingsley) discloses a light receiving device. To create a photoconductive belt by coating the carrier material with a length of carrier material. Has been disclosed. This belt is stretched around the sub-belt, so that the photoconductive The belt is pulled and the ends of the belt are carried together or Is a belt that overlaps and is joined to each other. The front and rear ends are in contact with the sub-belt. Or attached to each other by means such as glue or loop fasteners. With this configuration, the photoconductive belt, when conveyed with the sub-belt, Get swayed or overstretched. In addition, the photoconductive belt is If it is in a functioning device, such as a true device, remove or remove a new bell It is not easy to exchange them for Summary of the Invention   The present invention provides a device suitable for use in an electrophotographic device. To overcome these problems. This device directs the radiation of an image-like pattern Emission means are provided. The light receiving sheet is designed so that the light receiving sheet Position so that an image corresponding to the image-like pattern can be obtained. Light receiving sheet , A first end and a second end. The sheet transport mechanism moves the light receiving sheet It is transported repeatedly along the transport path.   Another embodiment of the present invention is a photoreceptor suitable for use in an electrophotographic device. This apparatus includes a transport mechanism that transports the photoreceptor along a transport path. The photoreceptor has a first end, a second end, at least one side end, and a first end. FIG. 6 is a sheet including a light receiving unit provided between a portion and a second end.   Another embodiment of the present invention comprises a method of transporting a photoreceptor in an electrophotographic device. I have. One step is to provide a light receiving sheet. Another step is And providing a transfer component movable through the transfer path. Another step Is the step of operatively connecting the light receiving sheet to the transport component. Yet another Moving the light-receiving sheet along the conveying path by moving the conveying parts Step.   Another embodiment of the present invention guides a light receiving sheet to a transport mechanism in an electrophotographic apparatus. Then, it is a method to remove it from now. The light receiving sheet has a first end, a second end, It has. The transport mechanism can transport the light receiving sheet in the loop . The method includes providing a transport component in a transport mechanism. Another Tep comprises the step of guiding the light receiving sheet to the transport component. Another station The fastener fastens the light receiving sheet to the transport component so that the transport component is Is transported along a transport loop. Another step is the sheet Providing a guide component. Yet another step is the sheet guide part Is inserted between the first end and the second end, while the light receiving sheet is inserted into the transport loop. Convey the light receiving sheet, remove the fastening of the light receiving sheet from the conveying parts, and convey the light receiving sheet. There is a step of guiding from the part.   Another embodiment of the invention is to fasten a light receiving sheet to a transport component within an electrophotographic apparatus. It is a way to tie. The light receiving sheet has a first end and a second end, Can be transported along the loop by transport components. This method transports a light-receiving sheet. The method includes the step of arranging in close proximity to the sending part. Another step is the photoreception When the light receiving sheet is transported along the transport loop Providing a gap between the first end and the second end. You. Still another step is a step of pressing the light receiving sheet and the transport component together. Equipped with   Another embodiment of the invention is to fasten a light receiving sheet to a transport component within an electrophotographic apparatus. Has a way to tie. The transport component has a first central plane, and the light receiving sheet is It has two central planes. In this method, the light receiving sheet is attached to Arranging the first and second central planes to be substantially aligned. Another The step includes fastening the light receiving sheet to the transport component.   Yet another embodiment of the present invention is an electrophotographic device that includes a device housing. Radiation means in the device housing direct radiation of the image-like pattern. Sheet transport mechanism Positioned in the housing. The light receiving sheet is positioned inside the housing. And transported along the sheet path by the sheet transport mechanism. And an image corresponding to the image-like pattern can be captured. BRIEF DESCRIPTION OF THE FIGURES   The foregoing advantages, structure and operation of the present invention will be apparent from the following description and accompanying drawings. It will be more readily apparent.   FIG. 1 is a perspective view of a light receiving sheet fastened to a transport mechanism in an electrophotographic apparatus. You.   FIG. 2 is a partial perspective view of one embodiment of the light receiving sheet.   FIG. 3 shows the light receiving system shown in FIG. 2 aligned and fastened to the timing belt. FIG.   FIG. 4 is a partial perspective view of the attachment of the light receiving sheet to the timing belt shown in FIG. It is.   FIG. 5 is a partial perspective view of another embodiment of the mounting shown in FIG.   FIG. 6 is a perspective view of the light receiving sheet, the sheet guide mechanism, the brush, and the container shown in FIG. It is a partial side view.   FIG. 7 is a side sectional view of a sheet cartridge provided with the light receiving sheet of FIG. You.   FIG. 8 is a view showing the sheet cover shown in FIG. 7 disposed in the transport mechanism of the electrophotographic apparatus. It is a perspective view of a cartridge.   FIG. 9 is a side cross-sectional view of another embodiment of the sheet cartridge shown in FIG. .   FIG. 10 is a view showing the sheet / sheet shown in FIG. 9 arranged in the transport mechanism of the electrophotographic apparatus. It is a perspective view of a cartridge.   FIG. 11 is a schematic side view of another embodiment of a sheet cartridge, A new light receiving sheet is dispensed, thereby receiving used light receiving sheet. To indicate that   FIG. 12 is a side sectional view of an electrophotographic apparatus provided with a light receiving sheet. Detailed Description of the Preferred Embodiment   The photoreceptor shown in FIG. 1 as a light receiving sheet is suitable for use in an electrophotographic device 4 It has become so. The light receiving sheet 2 is used repeatedly in the electrophotographic apparatus 4. It is suitable. In one embodiment of the light receiving sheet, a known light receiving bell It can be made from the same materials used to make it. Specific photoreception FIG. 2 shows an embodiment of the sheet 2 as a multilayer sheet. The multilayer sheet is a base sheet 6 , A light receiving layer 8, a barrier layer 10, and a release layer 12. Base sheet 6 Is, for example, 0.1 in a polyester film. 004 inches (0. 010 cm ト ル). The base sheet 6 is made of a polyamide film, Or aluminum vapor-deposited polyester film (1% light-transmitted vapor-deposited film) ) May be used. The light receiving layer 8 is about 15 microns thick, Azo dyes, molecular complexes, perylene dyes, phthalocyanine dyes, squalane dyes, And other known materials. The light receiving layer 8 includes these light The receiving material can be applied to the base sheet 6 by ironing. Barrier layer 1 0 is approximately 0. 2 micron thick, made of materials such as polyvinyl butyl resin Can be. The barrier layer 10 is formed by applying the polyvinyl butyl resin to the light receiving layer 8 by ironing. Therefore, it can be attached. The release layer 12 is made of silicone and has a thickness of About 0. What is necessary is just 65 microns. The release layer turns silicone into its barrier layer 10. Can be applied by smearing.   Unlike the light receiving belt, the light receiving sheet 2 functions properly without bonding. Therefore, the selection of the material is not limited to a material that can be joined, such as a hot-melt material.   The light receiving sheet 2 is transported by the first transport mechanism 14 to a transport route in the electrophotographic apparatus 4. Can be transported repeatedly. The transport loop is, for example, rectangular, circular, Or other shapes. The transport loop includes the transport loop distance, There is a distance along the sending loop. The first transport mechanism 14 includes a plurality of idle rollers. 22, a drive roller 24, and at least one transport component. .   The transport component may be the belt 26, but other transport components may be used. In FIG. As shown, the belt can be an edge belt, such as a timing belt. it can. If an edge belt is used, a substantial part of the light receiving sheet 2 will be a wide belt. It is not supported by another part such as a rack (not shown).   The two belts 26 are transported over the idle roller 22 and the drive roller 24. A transmission loop can be formed. The drive roller 24 engages with the belt 26, It can be driven. The belt 26 is attached to the side ends 28 and 29 of the light receiving sheet 2. The light receiving sheet 2 can be fastened or joined in some way, Can pass through the loop.   The conveying parts are not fastened to the side edges 28, 29 of the light receiving sheet, Can be fastened to at least the front end portion 30 of the light receiving sheet. Can be designed as follows. Similarly, the transporting part is also the rear end 31 of the light receiving sheet 2. Can be designed to be fastened to   To minimize wrinkling of the light-receiving sheet during transport, The center plane 32 is aligned with the center plane 34 of each belt 26 as shown in FIG. Must be there. To achieve this alignment, as shown in FIGS. Even if each belt 26 is fastened to the light receiving sheet 2 using the binding webs 36A and 36B. Good.   As shown in FIG. 4, the first portion 38A of the fastening web 36A is connected to the belt 26A. It can be joined to the uppermost surface 40A. The second portion 42A of the fastening web 36A includes a belt 26A, extending from above, near the side edges 28A, 30A and of the light receiving sheet 2A. A fastening surface that is fastened or unfastened to the fastening surface 46A on the top surface 47A 44A. When this fastening web 36A is used, the light receiving sheet 2 A can be delivered to the belt 26A from below the belt 26A.   As shown in FIG. 5, another embodiment of the fastening web 36B is the same as the fastening web 36 described above. Can be used instead of A. On the first portion 38B of the fastening web 36B The fastening surface 44B is connected to a fastening surface 46B disposed on the uppermost surface 40B of the belt 26B. It can be fastened, unfastened and fastened again. Second of the fastening web 36B Can be connected to the light receiving sheet 2B. Central surface 3 of light receiving sheet 2B 2 and the central surface 34 of the belt 26B in order to properly align the belt with the light receiving sheet 2B. A spacer 48 may be used between the second portion 42B of the tie web 36B. You. Since the fastening surfaces 44B and 46B can be refastened, the light receiving sheet 2B and fastening web 36B can be removed from belt 26B and replaced. It becomes like that. When this fastening web 36B is used, the light receiving sheet 2B is From the top 26A to the belt 26A.   The fastening surfaces 44A and 46A which can be refastened are coated with an adhesive even if they are microstructured surfaces. Surface, or other similar functions. Glue base As an example of the flat surface, an adhesive tape that loses its adhesive strength when stretched may be used. This type of tape is referred to as a "stretch release" tape.   The fastening surfaces 44A and 46A that can be refastened are the portions of the light receiving sheet 2A and the fastening surface 46A. The light receiving sheet 2A, the separation surface connected to the fastening surface 46A. Can be parts.   The fastening surfaces 44A and 46A, which can be refastened, form the light receiving sheet 2A when joined. And the central surface 32 of each belt 26A is properly aligned. Can be. Since the fastening surfaces 44A and 46A can be refastened, light reception is achieved. It is possible to remove and replace the sheet 2A from the belt 26A and the fastening web 36A. You can do it. Fasten refastenable fastening surfaces 44 and 46 to belt 26 In order to achieve this, the light receiving sheet 2 and the belt are Can be driven between a pair of nip rollers.   A first portion 42A and a second portion 42B of each of the fastening webs 36A, 36B In the above description, "contact" is applied to the uppermost surface 40A of the belt 26A and the spacer 48, respectively. Although described as being able to "continue," the connection need not be permanent. these The connection of the parts is more secure than the fastening of the refastenable fastening surfaces 44, 46. That's enough.   When the light receiving sheet 2 is fastened to the belt 26, The front end 50 of the light receiving sheet 2 makes a round of the transport loop and the rear end 51 of the light receiving sheet 2 Can be selected to a length that does not reach. This allows the rear end 50 and the front end A gap 52 is formed between the gap 51 and the gap 51. The length of the light receiving sheet 2 is set such that the front end 50 is It can also be chosen to strike or overlap end 51. In this case, if necessary The gap 52 may be eliminated. The light receiving sheet 2 extends when fastened to the belt 26. It is preferable not to do so.   Creating a gap 52 between the leading and trailing ends 50, 51 has various advantages. First In addition, since the light receiving sheet 2 is made of a material that is not inexpensive, the light receiving sheet 2 Minimizing the length is cost-effective. Second, the mass of ink is light Even after transfer from the receiving sheet to another substrate (such as a piece of paper), a large amount of ink When remaining on the receiving sheet 2, the sheet brush 53 is provided in the electrophotographic apparatus. As shown in FIG. 6, excess ink is swept into the gap 52 and dropped into the container 54. Can be done. The brush 53 may be stationary or rotating, for example. No. That is, the brush 53 removes a stationary blade (not shown) or residual ink. Other means may be used as long as they are excluded.   Third, the gap 52 allows the sheet guide mechanism 55 in the electrophotographic apparatus to be, for example, The light receiving sheet 2 can be removed from the transport mechanism 14 by contacting the leading end 50. To do. As shown in FIG. 6, the light receiving sheet 2 is Can be guided to the sheet container 56.   The size of the gap 54 is selected to provide one or more of the advantages described above. I can do it. The gap 54 can be, for example, 2 centimeters or more. Wear. To create the gap 54, the length of the light receiving sheet 2 is 98% or less of the length.   In addition to using the above-described sheet conveying mechanism, the light receiving sheet 2 is rotated by a rotating drum (not shown). It may be transported after being attached to (and removable). Sheet 2 and The size of the drum may be selected so that a gap is formed between the ends of the light receiving sheet 2. . The other features mentioned above can be achieved by using a rotating drum instead of the end belt 26. U Can be modified.   The light receiving sheet 2 is distributed from the sheet cartridge 56 to the first transport mechanism 14. can do. The sheet cartridge 56 is made of various injection-moldable trees. An injection-molded product molded with fat may be used. As shown in FIG. 7 and FIG. The sheet cartridge 56A includes a light receiving sheet 2A, a belt 26A, It is configured to operate in connection with the orientation of the fastening web 36A. As shown in FIG. As such, sheet cartridge 56A includes a housing 57A, which is new. Chamber 58A adapted to store and distribute a light receiving sheet 2A And a second key for receiving and storing the used light receiving sheet 2A. A chamber 60A is shown.   The cartridge has a function of communicating with the first chamber 58A and the electrophotographic apparatus 4A. An outlet 62A can be provided. In other words, the light receiving sheet 2A is It is possible to move from one chamber 58A to the electrophotographic apparatus 4A.   As shown in FIG. 8, the sheet cartridge 56A is formed by a belt 26A. The light receiving sheet 2A can be placed in the belt 26A is provided and fastened appropriately. Sheet cartridge 56A is inserted Then, when the electrophotographic apparatus 4A is activated, the new image extending from the first chamber 58A is opened. A portion of the new light receiving sheet 2A is pulled out from the first chamber 58A to the belt 26A. Can be The outlet 62A is provided with a rounded slot groove 63A, through which Then, the sheet drive roller 64A transfers the new light receiving sheet 2A to the first chamber 56A. Can be pulled out. After distributing the light receiving sheet 2A, the sheet The cartridge 56A can be removed from the electrophotographic apparatus 4A.   After several uses, the light receiving sheet 2A becomes used or is simply replaced by the user. You may want to do it. The electrophotographic apparatus 4 is used through the entrance 66A. A guide member 65A for guiding the light receiving sheet 2A to the second chamber 60A is provided. Can be. The new light receiving sheet 2A can be used immediately or simultaneously with a new sheet. It can be dispensed from the first chamber 58A of the cartridge 56A. Guide member 65A is, for example, a user's hand or a mechanism (not shown) in the electrophotographic apparatus 4A. ) Can be operated automatically. In the sheet cartridge 56A The guide member 65A may be replaced with the above-described sheet guide mechanism 55, It may function together with the guide mechanism 55.   The first chamber 58A and the second chamber 60A each have one or more light receiving The size can be set so that the seat 2 can be stored. Therefore, the sheet 2A has been used. , The sheet 2A is guided to the second chamber 60A, and a new sheet 2A is It can be withdrawn from the first chamber 58A.   The light receiving sheet 2A is inserted, used, and transported. When removed from 14, it is in the form of a sheet, but a new sheet and use The used sheet 2A is in the first chamber 58A and the second chamber 60A. It may be curved or rolled. The rolled light receiving sheet 2A is folded and wrinkled. Takes less space than a light-receiving belt that is not stretched. Therefore, the sheet 2A Thus, the sheet cartridge 56 is provided with sufficient storage means for the electrophotographic apparatus 4A. It can be a distribution means.   The cartridge 56 includes the light receiving sheet 2A in the first chamber 58A and / or the second chamber 58A. In the chamber 60A, make the shape flat so that it can be stored without being curved. be able to. Such a light-receiving sheet has better preservability when stored flat. Would be advantageous for the structure of For example, by rolling the light receiving sheet Isn't it easier to transport than stored for a long time when stored for a while? Maybe. The advantage is that multiple light receiving sheets are stored flat. Is particularly important.   In addition to the storage advantage, the light receiving sheet 2A can be inserted and removed from the transport system. Can be made easier than the light receiving belt. As mentioned earlier, the sheet cartridge Insertion from 56, unlike when inserting the belt, without removing the roller support You may. Further, when inserting and removing the sheet 2A from the transport system 14, a powerful There is no need to use cantilevered rollers.   A sheet cartridge 56B according to the second embodiment is shown in FIGS. C G cartridge 56B includes a light receiving sheet 2B shown in FIG. It can be configured to work with the orientation of the fastening web 36B. Shown in FIG. As such, the sheet cartridge 56B can include a housing 57B, This shows the first chamber 58B for storing and distributing the new light receiving sheet 2B. Shows a second chamber 60B for receiving and storing the used light receiving sheet 2B. ing.   As shown in FIG. 10, the sheet cartridge 56B is moved by the belt 26B. The light receiving sheet 2B can be placed in the area to be formed. And is properly provided and fastened to the door 26B. Insert sheet cartridge 56B And when the electrophotographic apparatus 4 is started, the new image extending from the first chamber 58B. The portion of the new light receiving sheet 2B is connected to the sheet driving roller 64B by the first chamber 58B. From the belt 26B. The sheet drive roller 64B is a sheet -It is fitted in the roller groove 63B of the cartridge 56B.   The sheet cartridge 56C of the third embodiment is attached to the internal sheet drive roller 67. As shown in FIG. The lower inner sheet drive roller 67A is a belt 26 on which it can be driven. Swapped, inside the lower side The outer sheet drive roller 67A includes three internal sheet drive rollers 67B, 67C, and 6 7D can be driven. The inner sheet driving rollers 67B and 67C -A new light receiving sheet 2 is supplied from the cartridge 56C, while an inner sheet drive is supplied. The moving rollers 67B and 67C are used to transfer the used light receiving sheet to the sheet cartridge 5. It is drawn into 6C.   Further, the electrophotographic apparatus 4 is connected to the apparatus housing 68, the control mechanism 69, and the erase run. 70, a charging means 72, an exposure station 74, an ink deposition mechanism or FIG. 12 shows a configuration including the developing device 76 and the ink transfer mechanism 78. Exposure The station 74 applies radiation in an image-like pattern corresponding to the first image to the light receiving sheet. 2 to generate a latent image. The first image is an electrophotographic device 4 can be extracted from a copy sheet (not shown).   When the first transport mechanism 14 transports the light receiving sheet 2 along a transport loop, The ink depositing mechanism 76 applies ink (not shown) to the light receiving sheet 2. then , The ink moves to the light receiving sheet 2 and forms a pattern very close to the latent image. Inn The image transfer mechanism 78 applies an image on the light receiving sheet 2 to a receiver, that is, an input sheet (not shown). This is the transfer step when the photoreceptor drum is used. Different from A second transport mechanism (not shown) transports the input sheet to the ink transfer mechanism 78 Send. The control mechanism 69 includes a first transport mechanism 14 and a second transport mechanism, and an exposure step. , An ink deposition mechanism 76, and an ink transfer mechanism 78.   It will be apparent from the present invention that there are many alternative embodiments similar to those described above. Can be expected. As a first example of another embodiment, the sheet 2 is circular or looped. There is another transport mechanism that reciprocates (that is, moves back and forth) instead of moving with. Shi The cartridge 56 is also useful for reciprocating the sheet 2. .   In another embodiment, a single light receiving sheet 2 may be transported along a transport loop. Instead, two or more light receiving sheets 2 are simultaneously placed in a transport loop or the like. An electrophotographic device 4 to be used can be provided. There is a gap 52 between the ends of the sheet. You may. Using four light-receiving sheets, each ink color (for example, Anne, magenta, yellow, and black).   In another embodiment, a paper feeder found in computer printers and photocopiers An electrophotographic apparatus 4 having a transport mechanism similar to a frame can be provided. Usually pay The paper mechanism inserts the sheet into the toner and fuser and then out of the machine. This In the case of, the light receiving sheet 10 passes through a circular or belt-like path and is in the same position as the initial position. I will come back to. Forward feed similar to that found in paper path feed designs If it were a mechanism, it would be necessary to extract the light receiving sheet from a tray such as paper .   If this type of mechanism is provided, the speed of the light receiving sheet 10 can be controlled accurately. Can be sent or pulled out along the loop. Tension applied to the light receiving sheet 10 To control the tension in the light receiving sheet 10 in the path where the tension needs to be controlled. Can incorporate additional features. Both light receiving sheets need to be replaced Can be used repeatedly in an electrophotographic apparatus until In addition, selection of the operator In some alternatives, photoreceptor device 10 may be exchanged via software control commands. Good.   Using a mechanism similar to paper feeding, the mechanism that maintains the tension in the light-receiving sheet is Drive row that is slightly skewed to apply tension across the web (across the sheet) Can be provided near the side edges of the light receiving sheet. Another approach, more ぴ The web may be tensioned with a solid track. In yet another approach, Curve the path of the light-receiving sheet by winding the light-receiving sheet around an axis, etc. As a result, the seat is always or inherently elastic. If the route is bent Even if the angle is a few degrees, the light receiving sheet is firmly bent and flexed in the lateral direction of the sheet. Prevent bending or bending.   The transport mechanism can be more complex, but a mechanism similar to this paper supply This allows the light receiving sheet cartridge to be simpler. More Specifically, many light-receiving sheets are converted into a cartridge similar to a "paper tray". You can enter. With this tray, new sheets are supplied and used sheets are There is a compartment for storing In this way, tens or hundreds of OPR systems Can be inserted into the machine at the same time. Can be reduced.

[Procedure for Amendment] Article 184-8, Paragraph 1 of the Patent Act [Date of Submission] July 3, 1997 [Content of Amendment] The light receiving sheet 2 can be delivered from the sheet cartridge 56A to the first transport mechanism 14. The sheet cartridge 56A may be an injection-molded product molded from various injection-moldable resins. As shown in FIGS. 7 and 8, one embodiment of the sheet cartridge 56A is configured to operate in conjunction with the orientation of the light receiving sheet 2A, belt 26A, and fastening web 36A shown in FIG. I have. As shown in FIG. 8, the sheet cartridge 56A includes a housing 57A, which shows a first chamber 58A adapted to store and dispense a new light receiving sheet 2A, and a used light receiving sheet 58A. Shown is a second chamber 60A for receiving and storing a sheet 2A. The cartridge may include an outlet 62A having a function of communicating with the first chamber 58A and the electrophotographic apparatus 4A. In other words, the light receiving sheet 2A can move from the first chamber 58A to the electrophotographic apparatus 4A. As shown in FIG. 8, the sheet cartridge 56A can be positioned in the area formed by the belt 26A, so that the light receiving sheet 2A is properly provided and fastened to the belt 26A. When the sheet cartridge 56A is inserted and the electrophotographic apparatus 4A is activated, a portion of the new light receiving sheet 2A extending from the first chamber 58A can be pulled out from the first chamber 58A to the belt 26A. The outlet 62A has a rounded slot groove 63A through which the sheet drive roller 64A can draw a new light receiving sheet 2A from the first chamber 56A. After dispensing the light receiving sheet 2A, the sheet cartridge 56A can be removed from the electrophotographic apparatus 4A. After several uses, the light receiving sheet 2A may be used up or the user may simply want to replace it. The electrophotographic apparatus 4 can include a guide member 65A for guiding the used light receiving sheet 2A to the second chamber 60A through the entrance 66A. The new light receiving sheet 2A can be dispensed immediately or simultaneously from the first chamber 58A of the new sheet cartridge 56A. The guide member 65A can be automatically activated by, for example, a user's hand or by a mechanism (not shown) in the electrophotographic apparatus 4A. The guide member 65A in the sheet cartridge 56A may be replaced with the above-described sheet guide mechanism 55, or may function together with the sheet guide mechanism 55. The first chamber 58A and the second chamber 60A can each be sized to accommodate one or more light receiving sheets 2. Therefore, when the sheet 2A is used, the sheet 2A can be guided to the second chamber 60A, and a new sheet 2A can be pulled out from the first chamber 58A. The light-receiving sheet 2A is in the form of a sheet when inserted, used, and removed from the transport system 14, but the new sheet and the used sheet 2A are in the first chamber 58A. , And the inside of the second chamber 60A may be curved or wound. The rolled light receiving sheet 2A takes up less space than a light receiving belt that is not folded and unwrinkled. Therefore, the sheet 2A allows the sheet cartridge 56A to be sufficient storage means and distribution means for the electrophotographic apparatus 4A. The cartridge 56A can be shaped so that the light receiving sheet 2A can be stored flat without being curved in the first chamber 58A and / or the second chamber 60A. This would be advantageous for the structure of a light-receiving sheet having good storage stability when stored flat. For example, if the light-receiving sheet is stored for a long period of time, for example, by being rolled, it may not be easy to transport the light-receiving sheet flattened and stored for a long time. This advantage is particularly important for flattening and storing a plurality of light receiving sheets. In addition to the storage advantages, the light receiving sheet 2A can be more easily inserted and removed from the transport system than the light receiving belt. As described above, the insertion from the sheet cartridge 56A does not require removal of the roller support, unlike when inserting the belt. Furthermore, it is not necessary to use a powerful cantilevered roller to insert and remove the sheet 2A from the transport system 14. A sheet cartridge 56B according to the second embodiment is shown in FIGS. Sheet cartridge 56B uses light receiving sheet 2B, belt 26B, and a mechanism similar to paper feed, shown in FIG. 5, to maintain tension in the light receiving sheet across the web (across the sheet). A slightly skewed drive roller can be provided near the side edge of the light receiving sheet to provide tension. In another approach, the web may be tensioned with a more solid track. Yet another approach is to curve the path of the light-receiving sheet, such as by winding the light-receiving sheet around an axis, so that the sheet is always or inherently elastic. A bent path, even at a few degrees, causes the light-receiving sheet to be firm, preventing it from bending or bending in the lateral direction of the sheet. The transport mechanism can be more complex, but with a mechanism similar to this paper supply, the cartridge for the light receiving sheet can be simpler. More specifically, multiple light receiving sheets can be placed in a cartridge similar to a "paper tray". This tray has compartments to supply new sheets and store used sheets. In this way, tens or hundreds of organic photoreceptor (OPR) sheets can be inserted into the machine at the same time, and the interruption of the operator in the field of high-speed and large-volume printing can be reduced. . FIG. 7 FIG. 8 FIG. 9 FIG. 10 [Procedure for Amendment] Article 184-8, Paragraph 1 of the Patent Act [Date of Submission] September 30, 1997 [Contents of Amendment] Claims 1. Radiating means (74) for guiding the radiation of the image-like pattern; and a first end and a second end disposed with respect to said radiating means (74) so that an image corresponding to the image-like pattern can be captured. A light receiving sheet (2) comprising: a light receiving sheet (2); and a sheet conveying mechanism for conveying the light receiving sheet repeatedly along a conveying path, wherein the sheet conveying mechanism has at least one belt (26) having a belt width and a belt thickness. A sheet transport mechanism (14), wherein the at least one belt (26) has a first central plane (34) perpendicular to the thickness direction thereof; ) Has a second central plane (32) such that the light receiving sheet (2) can be fastened to the at least one belt (26), so that the first central plane (32). 34) is the second central plane ( 32) an electrophotographic apparatus, wherein the at least one belt (26) drives the light-receiving sheet (2) within the electrophotographic apparatus (4) so as to be substantially aligned with 32). Equipment suitable for use within. 2. 2. The device according to claim 1, wherein the transport path is a loop having a loop length, the light receiving sheet (2) having a sheet length, wherein the sheet length is shorter than the loop length. 3. 2. The light receiving sheet (2) according to claim 1, wherein the light receiving sheet (2) has a side edge and a coupling means comprises a first surface capable of coupling, uncoupling and recoupling to the sheet transport mechanism (14). apparatus. 4. 2. The device according to claim 1, wherein the light receiving sheet is transportable by the sheet transport mechanism without the need to support under a substantial portion of the light receiving sheet. 5. The light receiving sheet (2) has a sheet width, the sheet transport mechanism (14) includes a plurality of rollers (22, 24), and the belt width of at least one belt (26) is smaller than the sheet width. At least one of the plurality of rollers has a surface capable of engaging the at least one belt, and conveys the at least one belt; 2. The device according to claim 1, wherein a belt (26) is adapted to be fastened to the light receiving sheet (2). 6. The sheet transport mechanism (14) causes the light receiving sheet (2) to be removed from the at least one belt (26), and another light receiving sheet (2) is attached to the at least one belt (26). The apparatus of claim 5, further comprising a fastener that allows for fastening. 7. A radiating means (74) for guiding radiation of the image-like pattern; and a first means arranged on the radiating means (74) having an uppermost surface so that an image corresponding to the image-like pattern can be captured. A light receiving sheet (2A) having an end portion and a second end portion; and at least a light receiving sheet (2A) having a belt width and a belt thickness for repeatedly transporting the light receiving sheet (2A) along a transport path. One belt (26A) and the light receiving sheet (2A) can be removed from the at least one belt (26A), and another light receiving sheet (2A) can be fastened to the at least one belt (26A). A sheet conveying mechanism (14) having a fastener configured to be connected to the first light receiving sheet (2A) and a first fastening surface (46A) positioned on an uppermost surface (47A) of the light receiving sheet (2A). The first part ( 8A), a second portion (42A), and a bottom surface, wherein the first portion (38A) connects to the at least one belt (26A), and the second portion (42A) A fastening web extending over the light receiving sheet (2A) beyond the at least one belt (26A), and positioned on a bottom surface of a second portion (42A) of the fastening web (36A). An apparatus suitable for use in an electrophotographic apparatus, wherein the second fastening surface (44A) comprises a second fastening surface capable of fastening to the first fastening surface (46A). 8. Radiating means (74) for directing radiation of the image-like pattern; and a first end having an uppermost surface and disposed with respect to the radiating means (74) so that an image corresponding to the image-like pattern can be captured. A light receiving sheet (2B) having a portion and a second end; and at least one light receiving sheet (2B) having a belt width and a belt thickness for repeatedly transporting the light receiving sheet (2B) along a transport path. The belt (26B) and the light receiving sheet (2B) are removed from the at least one belt (26B) so that another light receiving sheet (2B) can be fastened to the at least one belt (26B). A sheet conveying mechanism (14) further comprising: a first fastening surface (46B) positioned on the at least one belt (26B); Part ( 38B), a second portion (42B), a fastening web (36B) having a bottom surface, and a first fastening surface (46B) positioned on the first portion (38B) of the fastening web (36B). And a spacer (48) connected to the top surface of the light receiving sheet (2B) near the edge of the light receiving sheet and connected to the bottom surface of the fastening web (36B). An apparatus suitable for use in an electrophotographic apparatus, comprising: 9. The electrophotographic apparatus has a transport path, and placing the light receiving sheet (2) in the electrophotographic apparatus (4); and causing the light receiving sheet (2) to function as a sheet transport mechanism (14). 2. The apparatus of claim 1, further comprising the steps of: transporting the light receiving sheet (2) in the electrophotographic apparatus (4), comprising: connecting the light receiving sheet (2) repeatedly along the transport path. Method using.

Claims (1)

[Claims] 1. Radiation means for directing radiation of an image-like pattern;   In order to be able to capture an image corresponding to the image-like pattern, A light receiving sheet comprising a first end and a second end;   A sheet transport mechanism for repeatedly transporting the light receiving sheet along a transport path. , Equipment suitable for use in electrophotographic equipment. 2. The transport path is a loop having a loop length, and the light receiving sheet is a sheet. 2. The device according to claim 1, wherein the sheet length is shorter than the loop length. Place. 3. The light receiving sheet has side edges, and coupling means is coupled to the sheet transport mechanism; The apparatus of claim 1, comprising a first surface capable of being uncoupled and rejoined. 4. There is no need to support under a substantial portion of the light receiving sheet, The apparatus according to claim 1, wherein the sheet is transportable by the sheet transport mechanism. 5. The sheet has a sheet width, and the sheet transport mechanism has at least one bell. And a plurality of rollers, and the belt width of at least one of the belts is Sheet width is smaller than at least one of the plurality of rollers. At least one belt having a surface capable of engaging with one belt. And the at least one belt is fastened to the light receiving sheet. 2. The apparatus according to claim 1, wherein said light receiving sheet is driven in said electrophotographic apparatus. On-board equipment. 6. The sheet transport mechanism includes a transport component having a first central plane; The sheet has a second midplane, the first midplane being substantially aligned with the second midplane. The apparatus of claim 1, wherein the light receiving sheet is fastened to a transport component. 7. The sheet transport mechanism removes the light receiving sheet from a transport component. , Further comprising a fastener that allows another light receiving sheet to be fastened to the transport component. Item 6. The apparatus according to Item 5. 8. The light receiving sheet has a top surface, and the fastener is   A first fastening surface positioned on the uppermost surface of the light receiving sheet;   A fastening web having a first portion, a second portion, and a bottom surface, the first portion comprising: a first portion; The second part extends beyond the transport component onto the light receiving sheet. Existing conclusion web,   A second fastening surface positioned on a bottom surface of a second portion of the fastening web; The second fastening surface includes a second fastening surface capable of fastening to the first fastening surface. On-board equipment. 9. The light receiving sheet has a top surface, and the fastener is   A first fastening surface positioned on the transport component;   A fastening web having a first portion, a second portion, and a bottom surface;   A second fastening surface positioned on a first portion of the fastening web; A second fastening surface, the surface of which can be fastened to the first fastening surface;   A fastening web connected to a top surface of the light receiving sheet near an edge of the light receiving sheet; And a spacer connected to a bottom surface of the device. 10. The electrophotographic apparatus has a transport path,   Placing the light receiving sheet in the electrophotographic device;   Operatively connecting the light receiving sheet to the sheet transport mechanism;   Repeatedly transporting the light receiving sheet along the transport path, A method using the apparatus of claim 1 for transporting a light receiving sheet in an electrophotographic apparatus.